KR960003041Y1 - A scrubbing tower - Google Patents

Abstract

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Description

Washing tower

Figure 1 is a partially cutaway perspective view showing the appearance of the present invention.

2 is a longitudinal sectional view of the present invention.

* Explanation of symbols for main parts of the drawings

1: washing tower 2: steam injection tank

2a: suction port 3: purification tank

3a: outlet 4: reservoir tank

6, 6a, 9, 9a: injection nozzles 5, 8: steam pipe

5a, 5b, 8a, 8b: injection pipe 7: pump

10, 12: fallopian tube 11, 13: bulkhead

11a, 13a: through hole

The present invention provides a steam injection tank for injecting steam, a spray pipe for injecting water, a fallopian tube in the form of a light beam, and a purifying tank formed with a partition having a plurality of through-holes on the reservoir tank to contaminate the inlet of the steam injection tank. The present invention relates to a scrubber tower for removing contaminants from steam injection tanks and purification tanks by inhaling gas, dust, and odorous air, and then discharging them to the outlets.

In general, the cleaning towers that have been used can remove hydrophilic substances, but those that are not hydrophilic are not removed, but are discharged through the outlets, and thus the ceiling efficiency is lowered. It is possible to remove contaminants mixed in the air by widening the contact area with gas in the purification tank, but since the filling material is put in the purification tank, the purification tank is made large, and thus the facility and operation costs are high, and the filling tank There was a problem in that it takes a lot of facility area because it should be formed large.

The present invention has been devised in view of the above-mentioned problems, and the vapor spray tank which can make non-hydrophilic pollutants hydrophilic and a large area for contacting the water to which each pollutant is sprayed to remove pollutants The main purpose is to reduce the air pollution by removing the hydrophilic or non-hydrophilic contaminants by forming a reservoir tank in which the purification tank and the pollutants are stacked, so that clean air is discharged through the outlet. When described in more detail based on the accompanying drawings as follows.

As shown in FIGS. 1 to 2, a reservoir tank 4 having a discharge pipe 14a for adjusting the water level on both sides and a discharge pipe 14 and an inlet pipe 15 for discharging contaminated water to the outside. The steam injection tank 2, the purification tank 3, and the pump 7 are installed and formed on the upper part thereof.

That is, the steam injection tank 2 forms the injection pipes 5a and 5b formed up and down inside the steam pipe 5 from the outside, respectively, and the injection nozzle 6 of the injection pipe 5a formed on the upper part is lower. The injection nozzle 6a of the injection pipe 5b formed in the lower portion is sprayed into the upper portion and has a suction port 2a at the upper portion thereof to be injected upward.

In addition, the purification tank 3 allows the water pumped by the pump 7 installed on one side to be injected into the injection nozzles 9 and 9a of the injection pipes 8a and 8b respectively formed inwardly through the water supply pipe 8. A plurality of through holes 11a having drilled out of the lower fall of the fallopian tubes 10 and 12 to the lower portions of the fallopian tubes 10 and 12 in the form of the upper and lower straits to each lower portion, and the through holes 11a and 13a which exclude the direct air flow riser. And partition walls 11 and 13 having 13a, respectively.

Reference numerals 16 and 16a denote water films in which sprayed water dropped on the fallopian tubes 10 and 12 flow in a cylindrical shape.

The effects and effects of the present proposal are as follows.

The inlet pipe 15 stores water in the reservoir tank 4 at a constant height, and forms steam heated by the steam pipe 5 installed on one side of the steam injection tank 2 in each of the injection pipes 5a and 5b. A jet nozzle (8, 6a) is used to pump the water contained in the reservoir tank (4) with a pump (7) installed in the upper part of the reservoir tank (4), and the water supply pipe (8) is a diesel injection pipe (8a). , 8b) to be injected into the injection nozzles 9 and 9a, and then to suck the contaminated air through the inlet 2a of the steam injection tank 2, the contaminated air to be sucked and the steam injected from the injection nozzles 6 and 6a. Hazardous gases, odor-producing substances and dust, etc., are heated by mixing and heating, and contaminated air heated by mixing with steam moves to the lower inner side of the purification tank 3 via the upper part of the water stored in the reservoir tank 4. Done.

The contaminated air thus moved is transferred upward through the through hole 13a of the partition 13 installed at the lower side, and hits the outside of the fallopian tube 12 in the upper and lower narrow form, while the mixed and heated contaminated air cools down first. After removing a part of the contaminants, the contaminant is secondarily removed via the water film 16a flowing inside the fallopian tube 12, and also by the water sprayed from the injection nozzle 9a of the injection tube 8b. The third contaminant is removed, and the first, second, and third contaminant-contaminated air passes through the through hole 11a of the partition wall 11 and hits the outside of the fallopian tube 10. In order to remove the pollutants, the polluted air hitting the fallopian tube 10 passes through the water film 16 to remove the pollutants in the fifth order, and is injected from the injection nozzle 9 of the injection tube 8a. Completely remove contaminants not removed by water Kkeuthan only air is discharged to the discharge port (3a).

The removal of the third and sixth pollutants, which is the above-mentioned removal method, increases the contact area between the water sprayed from the injection nozzles 9 and 9a of the injection pipes 8a and 8b and the contaminated air, thereby increasing the hydrophilic contamination. The material is removed, and the second and fifth pollutants are removed. The water sprayed from the respective injection nozzles 9 and 9a falls to the fallopian tubes 10 and 12, and then flows downward to form a cylindrical water film 16 and 16a. Contaminated air passes through the water film (16, 16a) to remove contaminants, and the first and fourth contaminants are removed through the holes formed in each of the partition walls (11, 13). The air filled by the contaminated and injected steam passed through 11a and 13a impinges on the outside of the fallopian tubes 10 and 12, which are cooled by the injected water, to condense and remove contaminants.

In addition, when the water level of the water stored in the reservoir tank 4 is high, it is discharged out by the discharge pipe 14a, and the clean upper water is pumped and reused by the pump 7 and the contaminated dirty water is discharged into the discharge pipe 14 Vented out through).

In this way, this paper works by mixing and heating the contaminants sucked by the steam injected by the injection nozzle of the steam injection tank, making the hydrophilicity strong even to the non-hydrophilic contaminants, and then removing the contaminants repeatedly in the purification tank. It is an excellent design that can prevent air pollution by allowing only clean air to be discharged to the outlet.

Claims (1)

The injection pipes 5a and 5b having the injection nozzles 6 and 6a for injecting steam are formed on the inside thereof, and have a steam injection tank 2 and the injection nozzles 9 and 9a each having an inlet port 2a formed thereon. Purging having the inner side of the injection pipes 8a and 8b, the partition walls 11 and 13 having the fallopian tubes 10 and 12 and the through holes 11a and 13a in the form of upper and lower narrow sides, respectively, and having the outlet port 3a on the upper side thereof. Washing tower, characterized in that formed by integrally forming the reservoir tank (4) in the lower portion of the tank (3).